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The significant concavity on the furcal side of the mesial root is very common on lower molars. (Image: Dr. Eric Herbranson)
Eric Herbranson, USA

By Eric Herbranson, USA

Tue. 7. October 2014


I don’t like the term “microendodontics.” I like the term “minimally invasive endodontics” better, but they both imply an objective that is not the reality of the changing concepts of what access and shaping results should ideally look like. It’s not about how small you can make an access but about designing treatment protocols that maximize dentin conservation while balancing the need for meeting treatment objectives.

It’s about dentin conservation and root form appropriate shaping.

There is a growing awareness that the legacy access concepts and principles have resulted in unnecessary removal of critical dentin that is structurally compromising teeth. Dr. David Clark and Dr. John Khademi deserve the credit for identifying and defining the critical importance of percervical dentin. Pericervical dentin is the dentin from the top of the pulp chamber to the upper canal area (Fig 1). This is considered to be the critical dentin for tooth strength and should be conserved as much as possible. Strength equates to longer lasting restorations — our ultimate goal. Two features of the legacy designs are a problem for dentin conservation. The first is the recommendation to completely de-roof the pulp chamber. The second is developing “convince form” in the coronal part of the canal by removing the internal triangle of dentin. Both are unnecessary and remove dentin that should be retained for strength.

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Defenders of these legacy concepts point to the five mechanical objectives for shaping presented in 1974 by Dr. Herbert Schilder. While a giant in endodonitics who dramatically influenced the specialty, the almost religious defense of these ideas gets in the way of conceptual progress. His objectives need a fresh look in the light of our better understanding of dental anatomy and newer file designs and materials.

Dental anatomy

Work with high-resolution micro-CT scanner starting in the 1990s provides us a much more profound understanding of tooth anatomy. In addition to the obvious canal complexity shown by these scans, the presences of concavities were shown to be ubiquitous and they reduce the amount of dentin we have to work with. An example is the lower molar mesial root. Virtually all of them have significant concavities in the furcation side of the root that starts at the furcation (Fig 2). There is simply much less dentin than most clinicians realize at this point, and over-enlargement of the canal must be guarded against.

Pulp chamber outline

The legacy recommendation for pulp chamber outline is to un-roof the pulp chamber and, once identified, flare the opening from the canal orifice to the occlusal. This large access is justified by the need for irrigation, visualization and canal access. All can be accomplished through a smaller, more conservative access design.

Convenience form — triangle removal

The recommendation to remove the dentin triangle from the upper canal is based on the need for straight-line access to the coronal part of the canal system. This feature was dictated by the historical use of stiff stainless-steel instruments and later by the excess stiffness of overly large NiTi instruments. Today’s newest generation heat-treated NiTi instruments are much more flexible, have a smaller upper flute diameter and do not require this feature.

Instrument design

Multitaper instruments were introduced to solve the problems of straight taper instruments. They automatically created more deep shape for better irrigation and steeper apical tapers for better obturation control. Good ideas — however, the first-generation multitaper instruments and their newer derivative all have a design defect, in my estimation. The mean flute diameter (MFD) at upper end of these instruments is too large for most teeth. It is certainly too large for most molar canal systems and results in unnecessary removal of critical dentin, especially in teeth with longer roots. The newest instrument designs have profiles that better match the actual root anatomy and thus conserve valuable pericervical dentin — all while creating shapes that allow us to meet quality treatment objectives. They have significantly smaller MFD at D16 that the older designs while creating similar deep shape for irrigation and obturation (Fig 3). This smaller MFD combined with newer heat-treating protocols has created a much more flexible instrument that eliminates the need for the “convenience form” design.

The new paradigm

Dentin conservation needs to designed into our access and shaping. It involves reducing the excessive widening of the pulp chamber, eliminating the convenience form and using instruments with a smaller MFD at the upper end. The occlusal opening is outlined by projecting the canal center line to the occlusal surface to avoid impinging the file into an “S” bend (Fig 4). Each tooth has a different geometry, depending on its specific needs (Fig 5).

Does it matter?

Yes, it does. A recent project conducted at the University of Toronto and published by Dr. Rajesh Krishan, et al, specifically set out to answer this question. It showed that the greater the amount of dentin conserved, the greater the increase in strength. The more conservative access prepped molars had strengths that approached the un-accessed control group and were 2.5 times stronger than the traditional access design. Coronal fracture is responsible for a significant percentage of endodontic failures and a more conservative approach to access and shaping has the potential to lower that percentage. It is time we integrate these concepts and instruments into our clinical practice.

Let’s just not call it “microendodontics.” Let’s call it “conservative endodontics,” with respect for the anatomy. “Root form appropriate shaping,” if you will!

Note: This article was published in roots, the international C.E. magazine of endodontics, North America Edition, Vol. 5, Issue 3, 3/2014.

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